NAD/NADH Cell-Based Assay Kit Item No. 600480 Customer Service 800.364.9897 * Technical Support 888.526.5351 www.caymanchem.com
TABLE OF CONTENTS GENERAL INFORMATION 3 Materials Supplied 3 Safety Data 4 Precautions 4 If You Have Problems 4 Storage and Stability 4 Materials Needed but Not Supplied INTRODUCTION 5 Background 5 About This Assay PRE-ASSAY PREPARATION 7 Cell Culture Preparation 7 Reagent Preparation ASSAY PROTOCOL 9 Preparation of Assay-Specific Reagents 10 Performing the Assay PERFORMANCE CHARACTERISTICS 11 Calculations 12 Performance Characteristics RESOURCES 14 Troubleshooting Materials Supplied GENERAL INFORMATION This kit will arrive packaged as a -20 C kit. For best results, remove components and store as stated below. Item Number Item Quantity/Size Storage 600485 WST-1 Developer Reagent 1 vial/600 µl -20 C 600481 Cell-Based Assay Ethanol Solution 1 vial/ -20 C 600482 Cell-Based Assay Alcohol Dehydrogenase 1 vial/250 µg -20 C 600483 Cell-Based Assay NAD + Diaphorase 1 vial/1.5 mg -20 C 600486 NAD + Standard 1 vial/70 µg -20 C 600092 Cell-Based Assay Digitonin Solution 1 vial/ -20 C 10009322 Cell-Based Assay Tablet 1 Tablet RT If any of the items listed above are damaged or missing, please contact our Customer Service department at (800) 364-9897 or (734) 971-3335. We cannot accept any returns without prior authorization. 14 References 15 Plate Template 16 Notes! WARNING: THIS PRODUCT IS FOR RESEARCH ONLY - NOT FOR HUMAN OR VETERINARY DIAGNOSTIC OR THERAPEUTIC USE. 16 Warranty and Limitation of Remedy Safety Data This material should be considered hazardous until further information becomes available. Do not ingest, inhale, get in eyes, on skin, or on clothing. Wash thoroughly after handling. Before use, the user must review the complete Safety Data Sheet, which has been sent via email to your institution. GENERAL INFORMATION 3
Precautions Please read these instructions carefully before beginning this assay. If You Have Problems Technical Service Contact Information Phone: 888-526-5351 (USA and Canada only) or 734-975-3888 Fax: 734-971-3641 Email: Hours: techserv@caymanchem.com M-F 8:00 AM to 5:30 PM EST In order for our staff to assist you quickly and efficiently, please be ready to supply the lot number of the kit (found on the outside of the box). Storage and Stability This kit will perform as specified if stored as directed in the Materials Supplied section and used before the expiration date indicated on the outside of the box. Materials Needed But Not Supplied 1. A plate reader with the capacity to measure absorbance at 450 nm 2. A 96-well plate for culturing cells 3. A 96-well clear bottom plate for performing the assay 4. A 96-well V-bottom plate for pelleting cells (non-adherent cells only) 5. A plate centrifuge 6. Adjustable pipettes and a repeating or multichannel pipette 7. A source of pure water; glass distilled water or HPLC-grade water is acceptable Background INTRODUCTION Nicotinamide adenine dinucleotide (NAD) is found in all living cells. It exists in two forms, an oxidized form, NAD +, and a reduced form, NADH. NAD functions as a cofactor in the vast majority of cellular redox reactions, carrying reducing equivalents from one reaction to another. Therefore, maintaining appropriate levels of NAD is essential for maintaining normal cellular respiratory function. There are two major pathways in NAD biosynthesis. The de novo pathway is maintained by the rate-limiting enzyme nicotinamide phosphoribosyltransferase (NAMPT), whereas the salvage pathway recycles degraded NAD products such as nicotinamide. NAD + and NAMPT levels decrease significantly in multiple organs during aging. 1 Studies have shown that cytosolic NAD + concentrations range from 300 in mammalian cells to 2 mm in yeast. Depletion of NAD in cells is a major cause of cell death. 2 The importance of NAD function in modulating cellular redox status and controlling signaling and transcriptional events makes NAD an important cofactor when investigating normal cellular function. About This Assay Cayman s NAD/NADH Cell-Based Assay Kit provides a colorimetric method for measuring intracellular NAD + and NADH in cultured cells. In this assay, NAD + found in cell samples is reduced to NADH by alcohol dehydrogenase during the oxidation of ethanol to acetaldehyde. The newly formed and the existing NADH found in the samples is then oxidized resulting in the reduction of a tetrazolium salt substrate (WST-1) to a highly-colored formazan which absorbs at 450 nm (see reaction diagram on page 6). The amount of formazan produced is proportional to the amount of total NAD in the cell lysate and can be used as an indicator of the total cellular NAD concentration. 4 GENERAL INFORMATION INTRODUCTION 5
Ethanol NAD + Formazan PRE-ASSAY PREPARATION alcohol dehydrogenase Acetaldehyde Figure 1. Reaction diagram NADH diaphorase WST-1 Cell Culture Preparation 1. Seed cells in a 96-well plate at a density of 10 3-10 4 cells/well in 120 µl of culture medium and grow the cells overnight in a CO 2 incubator at 37 C. Be sure to include wells containing culture medium without cells to be used as background controls. 2. The following day, compounds of interest or vehicle controls can be added to cultured cells, at user-determined concentrations. We recommend that each treatment be performed in triplicate. 3. Following treatment with compounds of interest, culture cells in a CO 2 incubator at 37 C for a sufficient period of time to allow for cell adherence to plate (adherent cells) without doubling. This will allow sufficient time for any cells that were disrupted during compound addition to re-attach. Reagent Preparation Some of the kit components are in lyophilized or concentrated form and need to be reconstituted or diluted prior to use. Follow the directions carefully to ensure proper volumes of Assay are used to reconstitute or dilute the vial components. 1. Assay Preparation Dissolve the Cell-Based Assay Tablet (Item No. 10009322) in 100 ml of Ultrapure water. This Assay is stable for one year at room temperature. 2. NAD + Standard- (Item No. 600486) This vial contains 71.7 µg of lyophilized NAD +. To reconstitute, add 1 ml of Ultrapure water and mix thoroughly. Reconstituted NAD + is stable on ice for 24 hours. Any unused NAD + Standard can be stored at -20 C for up to three months. 6 PRE-ASSAY PREPARATION PRE-ASSAY PREPARATION 7
3. Cell-Based Assay NAD + Diaphorase - (Item No. 600483) Reconstitute the contents of the vial with 150 µl Ultrapure water. Any unused reconstituted NAD + Diaphorase can be stored at -20 C for two weeks. 4. Cell-Based Assay Alcohol Dehydrogenase - (Item No. 600482) Reconstitute the contents of the vial with 120 µl Ultrapure water. Any unused reconstituted Alcohol Dehydrogenase can be stored at -80 C for one week. 5. Permeabilization To prepare the Permeabilization, add 200 µl of the Cell-Based Assay Digitonin Solution (Item No. 600092) to 19.8 ml of reconstituted Assay. 6. Reaction Solution NOTE: Prepare the Reaction Solution immediately before use in the assay. If you are not using a whole 96-well plate, prepare the amount of Reaction Solution required in proportion to the following. Any unused Reaction Solution should be discarded. To make 10 ml of Reaction Solution sufficient for use on one 96-well plate, add each of the following to 9.5 ml of the Assay : 200 µl of WST-1 Developer Reagent 100 µl of Cell-Based Assay Ethanol Solution (Item No. 600481) 100 µl of reconstituted Cell-Based Assay Alcohol Dehydrogenase Solution 100 µl of reconstituted Cell-Based NAD + Assay Diaphorase Solution ASSAY PROTOCOL Preparation of Assay-Specific Reagents Cell-Based Assay NAD + Standard To prepare the standard for use in the NAD/NADH Assay, obtain eight clean test tubes and label them A through H. Aliquot 5 ml of Permeabilization into tube A and into tubes B-H. Transfer 50 µl of the NAD + Standard (Item No. 600486) into tube A and mix thoroughly. The NAD + concentration of this standard, the first point on the standard curve, is 1,000. Serially dilute the standard by transferring from tube A into tube B; mix thoroughly. Next, transfer from tube B into tube C; mix thoroughly. Repeat this procedure for tubes E-G. Do not add any standard to tube H. This tube will be your blank. 100 µm Bulk Standard 50 µl A B C D E F G H 1,000 5 ml 500 250 125 62.5 31.3 15.6 Final 0 Blank * Figure 2. Preparation of the NAD + Standards. * in the image above refers to the Permeabilization. 8 ASSAY PROTOCOL ASSAY PROTOCOL 9
Performing the Assay 1. For adherent cells remove culture medium and proceed to step 3. 2. For non-adherent cells - transfer cells to a 96-well v-bottom plate and spin at 500 x g. Proceed to step 3. 3. Wash cells with 120 µl of Assay to remove culture medium and proceed to step 4. 4. Centrifuge the 96-well plate at 500 x g for five minutes. 5. Aspirate the Assay, being careful not to disturb the cell monolayer (adherent) or pellet (non-adherent). 6. Add 110 μl of Permeabilization to each well. 7. Incubate with gentle shaking on an orbital shaker for 30 minutes at room temperature. 8. Centrifuge the plate at 1,000 x g for 10 minutes at 4 C. 9. On a new clear bottom 96-well plate, transfer 100 μl of each standard into appropriate wells. We recommend that the standards be run in duplicate. 10. Transfer 100 μl of the supernatant from each cell culture well to corresponding wells of the new plate. 11. Add 100 μl of Reaction Solution to each well of the clear plate using a repeating or multichannel pipette. 12. Incubate the plate with gentle shaking on an orbital shaker for 90 minutes at room temperature. 13. Measure the absorbance of each sample using a microplate reader at a wavelength of 450 nm. Calculations ANALYSIS 1. Calculate the average absorbance of each standard. 2. Subtract the absorbance values of the blank from itself and all other standards and samples. This is the corrected absorbance. 3. Plot the corrected absorbance values (from step 2 above) of each standard as a function of the final concentration of NAD. See Figure 3, on page 12, for a typical standard curve. 4. Calculate the corrected absorbance of each sample by subtracting the absorbance value of the background wells (wells containing culture medium without cells) from each sample. 5. Calculate the NAD concentration of the samples using the corrected absorbance of each sample and the equation below. Total Cellular NAD () = Corrected absorbance - (y-intercept) [ Slope ] 10 ANALYSIS ANALYSIS 11
Performance Characteristics The standard curve presented here is an example of the data typically produced with the assay. However, your results will not be identical to these. You must run a new standard curve for each experiment. Absorbance (450 nm) 0.4 0.3 0.2 0.1 0.0 0 250 500 750 1,000 [NAD] Figure 3. NAD Standard Curve y = 0.0003483*x + 0.004427 r 2 = 0.9992 [NAD] 800 600 400 200 0 100,000 50,000 25,000 12,500 6,250 Cell Number 3,125 1,562.5 Figure 4. Relationship between cell density and total cellular NAD concentration. HepG2 cells were plated in 96-well tissue culture treated plates at the indicated density. Cells were cultured overnight in DMEM supplemented with 10% FBS at 37 C in a CO 2 incubator (5%) prior to the start of this assay. Total NAD was determined using the protocol found on page 10. Data are presented as means ± standard deviation (n=8). 0 12 ANALYSIS RESOURCES 13
Troubleshooting RESOURCES Problem Possible Causes Recommended Solutions Erratic values; dispersion of duplicates No signal detected above background in the sample wells Signal from sample wells too low References A. Poor pipetting/ technique B. Bubble in the well(s) Sample was too dilute Low level of NAD in experimental cells A. Be careful not to splash the contents of the wells B. Carefully tap the side of the plate with your finger to remove bubbles Increase cell density when seeding the cells A. Use a different cell line B. Increase incubation time to 2-3 hours after addition of reaction solution 1. Yoshino, J., Mills, K.F., Yoon, M.J., et al. Nicotinamide mononucleotide, a key NAD + intermediate, treats the pathophysiology of diet- and age-induced diabetes in mice. Cell Metab. 14, 528-536 (2011). 2. Yang, H., Yang, T., Baur, J.A., et al. Nutrient-sensitive mitochondrial NAD + levels dictate cell survival. Cell 130, 1095-1107 (2007). 1 2 3 4 5 6 7 8 9 101112 A B C D E F G H 14 RESOURCES RESOURCES 15
NOTES Warranty and Limitation of Remedy Buyer agrees to purchase the material subject to Cayman s Terms and Conditions. Complete Terms and Conditions including Warranty and Limitation of Liability information can be found on our website. This document is copyrighted. All rights are reserved. This document may not, in whole or part, be copied, photocopied, reproduced, translated, or reduced to any electronic medium or machine-readable form without prior consent, in writing, from Cayman Chemical Company. 10/29/2015, Cayman Chemical Company, Ann Arbor, MI, All rights reserved. Printed in U.S.A. 16 RESOURCES